MOP.P30: Remote Sensing for Climate Change Impacts III
Mon, 17 Jul, 14:15 - 15:45 Pacific Time (UTC -7)
Location: Poster Area 30
Session Type: Poster
Track: Societal Engagement and Impacts

MOP.P30.1: SEN2DWATER: A NOVEL MULTISPECTRAL AND MULTITEMPORAL DATASET AND DEEP LEARNING BENCHMARK FOR WATER RESOURCES ANALYSIS

Francesco Mauro, Fjoralba Janku, Silvia Liberata Ullo, University of Sannio, Italy; Benjamin Rich, Veronica Wairimu Muriga, Massachusetts Institute of Technology (MIT), United States; Alessandro Sebastianelli, European Space Agency (ESA), Italy

MOP.P30.2: FLOOD DEPTH ESTIMATION USING SYNTHETIC APERTURE RADAR (SAR) IMAGERY AND TOPOGRAPHY: A CASE STUDY OF THE 2021 AND 2022 FLOODS IN HAWKESBURY VALLEY, AUSTRALIA

Puja Das, Auroop Ganguly, Northeastern University, United States; Kat Jensen, Shaunak De, Capella Space Corporation, United States

MOP.P30.3: AN APPROACH TO FLOOD MONITORING WITH SENTINEL-1 DATA OVER DEHRADUN REGION

Rishika Yadav, Ajay Kumar Maurya, Dharmendra Singh, Indian Institute of technology Roorkee, India

MOP.P30.4: FLOOD MAPPING USING LANDSAT 8 OLI AND SENTINEL 2 DATA IN VAISHALI DISTRICT, INDIA

Shivam Rawat, Rashmi Saini, G.B Pant Institute of Engineering and Technology, India

MOP.P30.5: SPECTROMETER FOR METHANE MONITORING USING A TILTED INTERFERENCE FILTER

Bruno Mattos, Alan Marchant, Charles Swenson, Steve Brezenski, Jason Powell, Nicholas Wallace, Utah State University, United States; Michael Kirk, Lucas Anderson, Chad Fish, John Noto, Orion Space Solution, United States; Mark Schoeberl, Science and Technology Corporation, United States

MOP.P30.7: AUGMENTATION OF URBAN ATMOSPHERE THROUGH AMALGAMATION OF GEOSPATIAL & ANTHROPOGENIC DATA

Dyutisree Halder, Harshit ., Abhishek Rai, Rahul Dev Garg, Indian Institute of Technology Roorkee, India

MOP.P30.8: SUPER-RESOLUTION OF BVOC EMISSION MAPS VIA DOMAIN ADAPTATION

Antonio Giganti, Sara Mandelli, Paolo Bestagini, Marco Marcon, Stefano Tubaro, Politecnico di Milano, Italy

MOP.P30.9: REVEALING ENVIRONMENTAL INJUSTICE USING A SOIL-VEGETATION-ATMOSPHERE MODEL TO DERIVE GREEN COOLING SERVICES

Alby Duarte Rocha, Stenka Vulova, Michael Förster, Birgit Kleinschmit, Technische Universität Berlin, Germany